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United States Patent |
5,265,962
|
Ogawa
,   et al.
|
November 30, 1993
|
Packing bag having drawstrings
Abstract
A packing bag comprises a flat main body made of a synthetic resin film or
sheet, sleeves formed around a top end of the main body and each divided
into upper and lower chambers, and drawstrings each inserted in the
respective chambers of each sleeve. A plurality of engaging portions in
the form of knurled indentations are formed between the upper and lower
chambers and below the lower chambers so that an increased friction and a
reduced stiffness are imparted to the sleeve, in such manner that after
the top end portions are gathered by pulling the drawstrings in opposite
directions, the increased friction and reduced stiffness prevent the top
end from opening unintentionally due to a possible resilient restoration
of its ungathered state.
Inventors:
|
Ogawa; Hiroshi (Osaka, JP);
Takinoue; Teruo (Osaka, JP)
|
Assignee:
|
The Pack Kabushiki Kaisha (Osaka, JP)
|
Appl. No.:
|
007579 |
Filed:
|
January 22, 1993 |
Foreign Application Priority Data
Current U.S. Class: |
383/75; 383/71 |
Intern'l Class: |
B65D 033/28 |
Field of Search: |
383/71,74,75,93,96,107
|
References Cited
U.S. Patent Documents
298152 | May., 1884 | Arkell.
| |
405068 | Jun., 1989 | Arkell.
| |
2982659 | May., 1961 | Mote.
| |
3196757 | Jul., 1965 | Samways.
| |
3547341 | Dec., 1970 | Kirkpatrick.
| |
3552639 | Jan., 1971 | Meyer.
| |
3738567 | Jun., 1973 | Ruda.
| |
3738568 | Jun., 1973 | Ruda.
| |
4832507 | May., 1989 | Herrington.
| |
4842421 | Jun., 1989 | Bullard et al.
| |
Foreign Patent Documents |
508087 | Mar., 1975 | JP.
| |
1321107 | Jun., 1989 | JP.
| |
Primary Examiner: Garbe; Stephen P.
Attorney, Agent or Firm: Collard & Roe
Parent Case Text
This is a continuation-in-part application of co-pending application U.S.
Ser. No. 07/765,156 filed Sep. 23, 1991 now abandoned.
Claims
What is claimed is:
1. A packing bag having drawstrings, which bag comprises:
a main body made of synthetic resin film or sheet and having sleeves formed
around an open top end of the bag so as to accommodate the drawstrings;
each drawstring being of an annular shape, inserted in the sleeves around
the open top end and capable of being tightened to gather and close it;
a plurality of engaging portions formed on surfaces of the sleeves, with
the engaging portions increasing a friction between the surfaces which
come into contact with one another in a gathered state of the bag's top
end, and further with the engaging portions being such that stiffness of
the sleeves is reduced to render them less restorable to their ungathered
state;
wherein the engaging portions are knurled indentations which are formed
longitudinally of the sleeves, at predetermined intervals and in parallel
with each other,
wherein each sleeve comprises a tab extending from the top end and a front
or back wall of the main body, which wall has a surface opposite to the
tab,
wherein each sleeve is formed by tightly welding the wall to the tab at its
lower end and middle zone extending longitudinally of the sleeves, whereby
a lower junction line and a middle junction line are formed, with the
middle junction line dividing the sleeve into an upper internal chamber
and a lower internal chamber,
wherein each sleeve accommodates an upper drawstring and a lower drawstring
which are disposed above and below the middle junction line, respectively,
wherein each sleeve has as the engaging portions a plurality of parallel
indentations formed at predetermined intervals along the sleeve, and
wherein bottoms of the indentations extend into the tab so that the tab is
securely connected to the wall,
wherein the bottoms of the indentations are fusion-welded integral with
each other, and
wherein each drawstring is welded integral with the sleeve but separable
therefrom at one end to provide the sleeve with an operable portion,
whereas at other end opposite to the operable portion of each drawstring
it is permanently attached to the sleeve.
2. A packing bag as defined in claim 1, wherein each sleeve has a breakable
joint formed adjacent to the operable portion of the drawstring.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to a packing bag which has drawstrings, and more
particularly relates to a packing bag having one or more drawstrings which
are inserted in a sleeve formed around and along an open top end of a main
body of the packing bag, wherein the drawstrings are capable of being
pulled in opposite directions respectively at their opposite side ends so
that an upper portion of the packing bag is gathered to close the open top
end.
2. Description of Prior Art
In such a conventional type of packing bag as shown in FIG. 15, upper
portions of a bag's flat main body 51 made of a thermoplastic resin film
are folded over such that the upper portions' extremities are thermally
welded respectively to a front and back walls 52 and 52 of the packing
bag's main body 51. A front and back sleeves 53 and 53 for accommodating
drawstrings are formed in this manner to extend around an open top end of
the bag. An upper and lower drawstrings 54 and 54 inserted in each sleeve
53 will be tightened to close the open top end (see for example Japanese
Patent Publication Hei. 1-32170 and Japanese Utility Model Publication Sho
50-8087). An end of one drawstring 54 and an opposite end of the other
drawstring 54 are pulled in opposite directions to gather the upper
portions so as to close the bag as shown in FIG. 16.
It is however to be noted that the tightened ends of the drawstrings 54 are
likely to slacken while the bag is suspended from a user's hand and
carried by him, or when the drawstrings are knotted one with the other. As
a result, the binding force of the drawstrings 54 becomes so weak that the
resiliency of the resin film will loosen the tightly gathered top end to
open.
OBJECT AND SUMMARY OF THE INVENTION
An object of the present invention which was made in view of the drawbacks
mentioned above is therefore to provide a packing bag having drawstrings,
which bag can maintain its closed state of open top end if the top end
portion is once gathered and closed by tightening the drawstrings, even if
the binding force thereof were weakened thereafter, whereby the packing
bag can surely hold any articles in it and can be manufactured
advantageously in a mechanical process.
Other objects and advantages of the invention will become apparent
hereinafter from the description of the preferred embodiments which are
given only in way of example allowing any suitable modifications to be
included in the scope and spirit of the invention.
Those objects referred to above will be accomplished by providing a packing
bag having drawstrings, which bag comprises: (a) a main body made of
synthetic resin film or sheet and having sleeves formed around an open top
end of the bag so as to accommodate the drawstrings; (b) each drawstring
being of an annular shape, inserted in the sleeves around the open top end
and capable of being tightened to gather and close it; (c) a plurality of
engaging portions formed on surfaces of the sleeves, with the engaging
portions increasing a friction between the surfaces which come into
contact with one another in a gathered state of the bag's top end, and
further with the engaging portions being such that stiffness of the
sleeves is reduced to render them less restorable to their ungathered
state; (d) wherein the engaging portions are knurled indentations which
are formed longitudinally of the sleeves, at predetermined intervals and
in parallel with each other; (e) wherein each sleeve comprises a tab
extending from the top end and a front or back wall of the main body,
which wall has a surface opposite to the tab; (f) wherein each sleeve is
formed by tightly welding the wall to the tab at its lower end and middle
zone extending longitudinally of the sleeves, whereby a lower junction
line and a middle junction line are formed, with the middle junction line
dividing the sleeve into an upper internal chamber and a lower internal
chamber; (g) wherein each sleeve accommodates an upper drawstring and a
lower drawstring which are disposed above and below the middle junction
line, respectively; (h) wherein each sleeve has as the engaging portions a
plurality of parallel indentations formed at predetermined intervals along
the sleeve, and wherein bottoms of the indentations extend into the tab so
that the tab is securely connected to the wall; (i) wherein the bottoms of
the indentations are fusion-welded integral with each other, and (j)
wherein each drawstring is welded integral with the sleeve but separable
therefrom at one end to provide the sleeve with an operable portion,
whereas at other end opposite to the operable portion of each drawstring
it is permanently attached to the sleeve.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a perspective view showing a packing bag with drawstrings
provided in an embodiment of the invention;
FIG. 2 is a front elevation of the packing bag in the embodiment;
FIG. 3 is a cross section taken along the line 3--3 in FIG. 2;
FIG. 4 is another cross section taken along the line 4--4 in FIG. 2;
FIG. 5 is an enlarged cross section of the part "A" in FIG. 4;
FIG. 6 is a perspective view showing the bag in the embodiment, in its
entirety and with its top end being gathered;
FIG. 7 is an enlarged cross section taken along the line 7--7 in FIG. 6;
FIG. 8 is a plan view showing the first step of manufacturing the bag in
the embodiment;
FIG. 9 is an enlarged cross section taken along the line 9--9 in FIG. 8;
FIG. 10 is a plan view showing the second step which follows the first step
shown in FIG. 8 and is carried out to manufacture the bag in the
embodiment;
FIG. 11A is an enlarged cross section of the portion which extends along
the line 11--11 in FIG. 10 but is not fusion-welded yet;
FIG. 11B is another enlarged cross section of the portion which extends
along the line 11--11 in FIG. 10 and has been fusion-welded;
FIG. 12 is a plan view showing the third step which follows the second step
shown in FIG. 10 and is carried out to manufacture the bag in the
embodiment;
FIG. 13A is an enlarged cross section of the portion which extends along
the line 13--13 in FIG. 12 but is not knurled yet;
FIG. 13B is another enlarged cross section of the portion which extends
along the line 13--13 in FIG. 12 and has been knurled;
FIG. 14 is a plan view showing the fourth step which follows the third step
shown in FIG. 12 and is carried out to manufacture the bag in the
embodiment;
FIG. 15 is an enlarged perspective view showing in part a prior art packing
bag with drawstrings; and
FIG. 16 is a perspective view showing in entirety the prior art packing
bag, with its top end being closed.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
The invention will now be described more in detail referring to the
preferred embodiment shown in FIGS. 1 to 14.
The word "front" and "back" are meant in this description to respectively
indicate this side facing an observer and the other behind said side of a
packing bag.
The packing bag comprises a main body 1 and a pair of drawstrings 10 and
11.
The main body 1 flat in shape and having an open top end is formed by
folding a thermoplastic resin film and by thermally welding right and left
edges of front and back walls 2. The thermoplastic resin film as the
material of the main body 1 renders it easy to manufacture the packing
bag. Though polyethylene is one of the most preferable thermoplastic
resins, any other resin may be employed. The reference numeral 4 denotes
welded stripes.
Front and back sleeves 5 and 5 for accommodation of drawstrings are formed
near the open top end of the main body 1.
Tabs 7 extending from upper edges of the front and back walls 2 are folded
inwards and secured thereto along upper, middle and lower junction lines
each of a given width to thereby form the sleeves 5. The bonding of the
tabs is carried out by knurling them through the outer walls 2 along the
three band-like junction lines. Many indentations 9 are thus formed as
shown in FIGS. 2, 4 and 5 wherein their bottoms are fusion-welded to a
surface of each tab in such a manner as shown in FIG. 5. The reference
numeral 15 in FIG. 5 denotes the thus welded portions. The indentations 9
forming the middle junction line will substantially divide each sleeve 5
into upper and lower chambers which are disposed above and below the
middle junction line, respectively. It is noted that right and left side
edges of each sleeve 5 are in a sealed state due to the welded stripes 4,
before the bag is used. The fine and thin indentations serving as a
plurality of engaging portions, extend perpendicular to the sleeves and
disposed in parallel with each other and at regular intervals, so that an
increased friction is imparted by the engaging portions to the gathered
sleeve's 5 surfaces in contact with one another, wherein the engaging
portions reduce the stiffness of the sleeves and thereby render them less
capable of elastic restoration of shape in their gathered state. The
knurling process mentioned above is performed while the bag under
manufacture is heated, so that the folded tabs 7 will advantageously be
fusion-welded to the front or back walls 2 at their indentations 9. The
engaging portions need not be of any particular shape and dimension,
insofar as they increase the friction between the contacting surfaces of
the gathered sleeves 5, and insofar as they decrease the sleeves'
stiffness and make it difficult for them to elastically restore their
shape so as to open the top end of the bag.
One end of the front or back sleeve 5 accommodating upper and lower
drawstrings 10 and 11 serves as an operable portion, while the other end,
which is opposite to the one end, of the back or front sleeve 5 also
accommodating the drawstrings 10 and 11 serves as a further operable
portion. These operable portions are pulled outwards in opposite
directions to gather and close the top end of the bag.
Each of the upper and lower drawstrings 10 and 11 is composed of a pair of
front and back constituent strings 10a and 10a, or 11a and 11a, which are
narrow ribbons made of a suitable thermoplastic resin. Each pair of the
constituent strings 10a or 11a is welded at its side extremities integral
with each other and also integral with the sleeves 5. It will be
advantageous to employ a suitable thermoplastic resin to form the
constituent strings 10a and 1a, because they can readily be welded to each
other and to the sleeves. Although an example of preferable thermoplastic
resins is polyethylene, any other resin may be used. The reference numeral
12 denotes welded areas of the strings.
Breakable joints 13 are provided around the welded areas 12 which are
located at one side extremity of one drawstring 10 or 11 and at the other
opposite side extremity of the other drawstring 11 or 10. Such breakable
joints 13 will be torn off when the welded areas 12 are pinched and pulled
outwards, whereby these welded areas can serve as the operable portions of
the drawstrings 10 and 11 when they are tightened. Alternatively, any
suitable cutouts exposing the extremities may be provided in place of the
breakable joints 13.
The packing bag as described above may preferably be manufactured for
example in a continuous manner, as follows.
At first a raw material "F", which is a thermoplastic resin film having a
predetermined width and is wound on an uncoiler (not shown), will be
unwound to be doubled over transversely along its longitudinal center line
in a manner shown in FIG. 8. Side free portions of the thus formed front
and back walls 2 are folded back inwards to provide tabs 7 and 7. Upper
and lower U-shaped breakable joints 13 having their legs extending
sideways are formed on the inwardly folded side portions, and disposed one
above another at right and left sides of each phantom line, respectively.
Each perforation defining such joints 13 pierces the tab 7 and the front
or back wall 2 which is in contact with the tab.
It will be convenient to draw the letter "S" with a broken line, i.e.,
perforation, across each dot-and-dash phantom line in order to form the
breakable joints 13 in such a manner shown in FIG. 8.
Next, the raw material "F" will successively be moved leftwards and so
that, as shown in FIGS. 10 and 11A, each pair of ribbon-like constituent
strings 10a and 11a are laid in parallel at a predetermined distance
between them, between each inwardly folded tab 7 and the front or back
wall 2. The raw material "F" which now carries the constituent strings 10a
and 11a will then be moved further to the left so that, also as shown in
FIGS. 10 and 11A, a heat resistant rigid plate 20 is inserted in between
the tab 7 extending from the front wall 2 and the other tab 7 extending
from the back wall 2. The heat resistant rigid plate 20 is fixed in
position in this manufacture line, and is preferably made of a metal plate
whose surfaces are covered with a heat resistant material such as a
silicone resin or "Teflon" (trademark). As the leading phantom line shown
in FIG. 10 reaches the place where the plate 20 is located, a pair of
upper and lower hot dies "X" will press the regions each encircled with
the breakable joint 13 and the phantom line as well as other portions
located close to the regions. As a result, one tab 7 is fusion-welded to
the front wall 2, with the other tab 7 is simultaneously fusion-welded to
the back wall 2, as will be seen in FIGS. 10 and 11B.
The raw material "F" of the bag will further be transported leftwards so
that, as shown in FIGS. 12 and 13A, a soft and heat-resistant knurling
plate 30 is inserted in between the tab 7 extending from the front wall 2
and the other tab 7 extending from the back wall 2. The heat-resistant
knurling plate 30 is fixed in position in the manufacture line, and is
made of a soft material such as a silicone rubber.
Subsequently, the bag material "F" will further advance so that its part
enclosed by the phantom lines in FIG. 12 will arrive at a region where the
knurling plate 30 is located. At this region of the manufacture line, a
pair of upper and lower hot knurling dies "Y" will press three zones of
the bag material in a manner as indicated by the phantom lines in FIG.
13B. However, those dies will not press the material's portions through
which the drawstrings 10a and 11a have been inserted between the tab 7 and
the front wall 2 and between the other tab 4 and the back wall 2. Thus,
three knurled lines are formed parallel and one above another, with each
of them being composed of a number of indentations 9.
Finally, the bag material "F" further advances leftwards so as to be
fusion-welded along the phantom lines and in a successive manner shown in
FIG. 14. This step itself is the step of simultaneously hot-melt severing
from the material the packing bags "A" with drawstrings shown in FIGS. 1
and 2.
In use of the packing bag thus manufactured, the upper and lower
drawstrings 10 and 11 are pinched at their welded areas 12, which are
located opposite to serve as the operable portions, and are tightened in
opposite directions tearing the breakable joints 13 so as to gather and
close the top end of the bag.
In this gathered state, both the sleeves 5 are pleated so that their pleats
overlap one another. The indentations 9 engage with each other to thereby
afford a high frictional resistance to the contact surfaces of the
sleeves, as will be seen in FIG. 7. Additionally, those sleeves 5 are
rendered less resilient or less stiff by the number of indentations 9 so
as not to easily return to their natural or ungathered state. Further,
friction between the drawstrings 10 and 11 and the inner surfaces of the
sleeves 5 in which the drawstrings are accommodated will also be useful to
maintain the closed state of the bag. In this way, the top end of the
packing bag will securely remain gathered and tightly closed.
In summary, the packing bag having the drawstrings and constructed in a
manner as described herein is advantageous in that the fastened
drawstrings can keep tight the closed top end so that any articles are
surely held in the bag.
The plurality of engaging portions such as the indentations can be formed
easily at the same time as the main body is formed. Therefore, it is also
advantageous that the packing bag in the present invention is suited to
mechanical production at a manufacture cost comparable to that of the
conventional packing bags.
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